Dipartimento di Chimica, Università degli Studi di Milano, Via Golgi 19, 20133 Milano, Italy.
Taros Chemicals, GmbH & Co. KG Emil-Figge-Str 76a, 44227 Dortmund, Germany.
Molecules. 2023 Jan 19;28(3):1002. doi: 10.3390/molecules28031002.
The use of stereoselective phase-transfer catalysis as a reliable method for the enantioselective synthesis of optically active α-amino acid derivatives using achiral Schiff base esters has been well-developed in batch in the last 40 years. Recently, continuous flow technology has become of great interest in the academy and industry, since it offers safer process operating conditions and higher efficiency compared to a traditional batch processing. Herein, we wish to report the first example of enantioselective phase transfer benzylation of alanine Schiff base ester, under continuous flow conditions. Two different methodologies were investigated: a liquid-solid phase transfer catalytic benzylation using a packed-bed reactor and a liquid-liquid phase transfer catalytic benzylation in continuous stirred-tank reactors. Liquid-liquid phase transfer process in flow showed slightly better productivity than the batch process, while solid-liquid phase transfer benzylation proved much more advantageous in terms of productivity and space-time yield. Furthermore, continuous flow system allowed the isolation of benzylated product without any work up, with a significant simplification of the process. In both cases, phase transfer asymmetric benzylation promoted by Maruoka catalyst demonstrated high enantioselectivity of target quaternary amino ester in flow, up to 93% ee.
在过去的 40 年中,使用非手性席夫碱酯的立体选择性相转移催化作为一种可靠的方法,已经在分批反应中很好地发展了用于对映选择性合成光学活性α-氨基酸衍生物。最近,连续流技术在学术界和工业界引起了极大的兴趣,因为与传统的分批处理相比,它提供了更安全的工艺操作条件和更高的效率。在此,我们希望报告在连续流条件下对丙氨酸席夫碱酯进行对映选择性相转移苄基化的第一个例子。研究了两种不同的方法:使用填充床反应器的固-液相转移催化苄基化和连续搅拌釜反应器中的液-液相转移催化苄基化。与分批过程相比,液-液相转移过程的生产能力略高,但固-液相转移苄基化在生产能力和时空收率方面具有更大的优势。此外,连续流系统允许在不进行任何后处理的情况下分离苄基化产物,显著简化了工艺过程。在这两种情况下,Maruoka 催化剂促进的连续流相转移不对称苄基化均表现出对映选择性的高目标季铵酯,高达 93%ee。
